EP2055733A1 - Lead - Google Patents

Abstract

Mine with a mine ground mass based on wax, comprises: at least one opaque white pigment (30-70 wt.%), at least one polyolefin wax (5-30 wt.%), a filler (15-30 wt.%), a fatty acid salt (3-25 wt.%) and a wax- and/or fat-like component.

Description

The invention relates to a mine and equipped with such a mine pin. For a long time, it has been known to cover lines or areas on drawing and writing surfaces, for example on white paper, with the aid of correction fluids in order to correct or retouch errors in texts or drawings, for example. The liquids usually contain, in addition to titanium dioxide, which is mainly responsible for the coverage, an organic solvent or water, which is mixed with minor additions of organic solvents, and additives. The correction fluids stored in containers are usually applied to the substrate by means of application elements, such as brushes or sponges, which are fixed to a container closure, such as a screw cap. The disadvantage here is, first, that often more liquid is removed from the container with the application element than is required for correction or that liquid drips off the application element. Machteilig is further that the liquids, especially if the container is open for a long time in use, dry relatively quickly and then difficult to distribute on the surface or result in too thick orders. Furthermore, the liquids, especially those based on water, have the property that they dissolve certain dyes, so that the dye of a covered lettering discolors the cover film formed with the liquid. Finally, solvent emissions and, in particular, the associated odor nuisance of the user are disadvantageous.

In many cases containers are used in the form of a writing instrument, which are indeed improved in terms of handling, but bring about other disadvantages. The devices have an application tip that delivers correction fluid when pressure is applied to the flexibly held container. Despite mechanical seals, for example in the form of a closure ball, the application tips dry out very quickly after removal of a seal that seals them during storage and transport, in particular in the event of only sporadic use. In addition, such devices are relatively expensive to manufacture, especially because of their complex application tip and therefore expensive.

The disadvantages associated with the aforementioned correction fluids are avoided with application devices that work with correction tapes. The tapes have a filler and pigments such as titanium white-containing topcoat and can be unrolled using a complicated rolling mechanism on the surface, the topcoat adheres to the surface. Although this results in a homogeneous and smooth cover film, but only in a straight unwinding direction. In a curved rolling track, wrinkles occur on the concave sides of the cover film due to accumulations of material. In addition, the rolling mechanism is prone to failure. Thus, the correction tapes can break, making the entire device unusable. In addition, the existing rolling machines tend in many cases to block in the application. It is also difficult to make accurate corrections. Some of the cover films applied tend to yellow after several weeks.

The object of the invention is to enable a correction of the type mentioned without the mentioned disadvantages.

This object is achieved by a mine according to claim 1 or a writing instrument containing such a mine according to claim 12.

The invention was initially based on the finding that a mine with a conventional, crayons corresponding consistency could serve as a basis, if these opaque pigments, for example, white pigments such as TiO ₂ , ZnO, Mg0 or lithopone contains. Lithopone is a mixture or co-precipitate of ZnS and BaSO ₄ . It was found that in conventional mines, especially in wax mines, which appeared to be the most promising in terms of their smear behavior, despite high proportions of color pigments, no comprehensive smears on paper documents could be produced. Also, variation of the conventional wax components or fillers contained in the lead mass did not succeed. Completely surprising was then that with wax mines with 1 wt.% To 30 wt.% Of at least one polyolefin wax with a proportion of pigments, in particular white pigments such as titanium white or lithopone, from 30 wt.% To 70 wt.% Covering smears mainly on Paper documents can be generated. The smears have a high opacity, are durable, do not dissolve the dye from overlapping labels, and are also solvent-free and therefore odor-free. In addition, the mines can be stored for long periods without any loss in their performance characteristics. A mine and a writing instrument containing a refill, such as a wood- or plastic-coated pencil, are very easy and efficient to handle. It can thus make both precise corrections as well as larger Surface areas of a pad provided with a high opacity, comparable with conventional correction liquids order. The opaque jobs are overwritable with conventional writing instruments. In the case of a white background, the white pigments already mentioned above give high whiteness jobs. Whiteness refers to the (white) appearance of a white coating. It is defined as the reflectance of a white surface compared to, for example, a white standard, and can be determined by means of a spectrophotometer. For tinting a white hue small amounts of blue dye or pigment can be used such. B. ultramarine blue. It is also possible to produce colored mines. For example, for corrections on yellow writing paper, the desired correction solid refill may be colored or tinted with yellow or orange pigments.

Good coverage is achieved when the mines contain the above-stated level of polyolefin wax. Below 1% by weight, a covering effect of polyolefin waxes is no longer observed. From a content of 5% by weight, a good coverage is achieved, with respect to the proportion of pigments, a relatively large margin exists. A proportion of more than 30 wt.% Polyolefinwachs brings no further increase in opacity. Also, at high levels of polyolefin waxes, the lead becomes relatively solid, thereby degrading the smear behavior of the lead. In principle, polyolefin waxes with melting ranges between about 50 ° C and 130 ° C are suitable, in particular polyolefin waxes from the group polyethylene wax (CAS 9002-88-4), polypropylene wax (CAS 9003-07-0), propylene-ethylene copolymer wax (9003-07-0), PP copolymer wax (CAS 31069-12-2), ethylene-1-propene copolymer (CAS 9010-79-1), or ethylene-1-propene polymer (CAS 9003-07-0), each alone or in mixtures in question. Worth mentioning are polyethylene wax, polypropylene wax and propylene-ethylene copolymer wax, with which particularly well-covering mines can be produced. The orders containing the last two waxes can be overridden particularly well.

The smear behavior and, to a certain extent, the consistency of the mines can be reduced by the usual waxy and waxy components such as soft waxes based on fatty and soft wax acids such as castor oil, fatty and soft wax glycerides, wax alcohols, wax esters, long-chain branched and unbranched hydrocarbons , hardened waxes, so for example esters of montan acids, stearic acid, palmitic acid, castor wax and paraffin wax vary within wide limits. Lubricants are also to be mentioned in this regard, which, in particular, ensure that when the mine is being scraped off on a base, a sufficient amount of ground mass remains adherent, which is important for the opacity of the jobs. Lubricants which are customary in wax minerals fatty acid salts such as calcium stearate, magnesium stearate and zinc stearate in a proportion of 3 wt.% To 25 wt.% Are included. Wachsminen of the type in question are water insoluble. However, a water solubility can be effected by the addition of emulsifiers, which also recommends the use of water-soluble lubricants such as sodium stearate. The term wax mines are also to be understood as those mines containing a small proportion of a water-swellable binder such as sodium carboxymethylcellulose.

Another important part of the mines are fillers. These have a positive effect on the smear behavior by They counteract solidification of the mine by hard waxes, especially polyolefin waxes. In particular, inorganic filler particles, in particular calcium carbonate, mica, kaolin, soapstone and talcum, in each case alone or in admixture with another of the stated fillers are suitable. Below a filler content of 15% by weight, the mines are generally too hard, which means that too little material can be spread on a substrate. Above 30% by weight of fillers, there is a risk that a cohesion of the lead mass sufficient for easy handling of the lead will no longer exist, so that, for example, the leads break off when pressed against a base.

example 1

talc 23.0% by weight magnesium stearate 10.0% by weight Titanium dioxide 40.0% by weight Esters of montan acids (CAS 73 138-45-1) 6.0% by weight stearic acid 13.0% by weight polyethylene wax (CAS 9002-88-4) 8.0% by weight

Example 2.

kaolin 21.98% by weight magnesium stearate 10.00% by weight Ultramarine 0.02% by weight Titanium dioxide 40.00% by weight Polycerinhydro RD 907 5.00% by weight (Manufacturer: Th. C. Tromm GmbH, D-50735 Cologne) Propylene-ethylene copolymer wax (CAS 9010-79-1) 14.00% by weight Castor wax 9.00% by weight

Example 3.

kaolin 21.98% by weight calcium stearate 10.00% by weight Ultramarine 0.02% by weight Titanium dioxide 40.00% by weight Esters of montan acids (CAS 73138-45-1) 5.00% by weight Propylene-ethylene copolymer wax (CAS 9010-79-1) 14.00% by weight stearic acid 9.00% by weight

The exemplary embodiments are mining masses for white correction mines, in the case of examples 2 and 3 ultramarine blue being included for tinting. The starting materials are mixed with mixers or kneaders and the resulting lead mass is formed into mines with a diameter of 6 mm using an extruder or an extruder.

Comparative Example:

Titanium dioxide 40.0% by weight kaolin 25.0% by weight montan wax 10.0% by weight Japan wax original 20.0% by weight stearic acid 5.0% by weight

It is a traditional wax mine mass for white mines.

Mines according to Examples 1 to 3 were tested in comparison with a commercially available correction liquid and a mine equivalent to the comparative example with a diameter of 4 mm (Reference Example WR1). For this purpose, completely black fields were created on white paper with an HP DeskJet 990 CXi inkjet printer. In each case a field was overlined with the reference color pencil WR 1, a commercial correction fluid and the mines according to Examples 1-3.

An evaluation of the results was carried out with the colorimeter Mercury - Cielab from Datacolor (Dietlikon, CH). The white values .DELTA.L were determined in comparison with a black background (.DELTA.L = 0) generated with said printer. Paper overlined with white Printout Ink Jet Printer: Field black without overpainting Black field overlined with reference pencil WR 1 Black field overstretched with commercially available corrective fluid Black field overlaid with correction ref. Example 1 Black field overlined with correction min. Example 2 Black field overlined with correction min. Example 3 Copy paper white untreated, not printed, not painted over ΔL 0.0 23.1 61.6 62.2 63.3 65.8 69.0

From the values obtained in this way, it is clear that the mines according to the invention (Examples 1-3) show significantly better results in terms of hiding power than conventional white colored pencil lead mines (WR 1). The results are even slightly better than with commercially available correction fluids. The reference mine showed only poor hiding power. Since the reference mine and the inventive mines each have a comparable wax-based lead mass and comparable white pigments, it is clear that the cause of the significantly improved hiding power are the polyolefin waxes.

Example 4: talc 20.00% by weight zinc stearate 5.00% by weight zinc oxide 35.00% by weight Pigment Yellow 81 (CI 21127) 0.50% by weight Polyethylene wax 20.00% by weight Paraffin Wax (Melting range 60-65 ° C) 19.50% by weight

The lead mass is colored yellow and is particularly suitable for the production of thicker mines, such as high-coverage wax crayons with a diameter of 12 mm. The preparation is carried out according to Example 1 to 3, wherein the mines are sharpened before use. From this example, it is clear that a mine according to the invention can be used not only as a correction mine but also for painting purposes, either in the form of crayons or in coated form.

Claims (13)

Mine with a wax-base mining base, containing 30% by weight to 70% by weight of at least one pigment and 1% by weight to 30% by weight of at least one polyolefin wax. Mine according to claim 1,
characterized,
that 5 wt.% To 20 wt.% Polyolefin wax are included. Mine according to claim 1 or 2,
characterized,
that 35% by weight to 60% by weight of pigments are contained. Mine according to one of the preceding claims,
characterized,
that at least one polyolefin wax from the group polyethylene wax, polypropylene wax, polyethylene-polypropylene copolymer wax is included. Mine according to one of the preceding claims,
characterized,
that it contains as pigment titanium oxide and / or lithopone. Mine according to one of the preceding claims,
characterized,
that at least one filler is included. Mine according to claim 6,
characterized in that filler is contained in a proportion of 15 wt.% To 30 wt. Mine according to claim 6 or 7,
marked by
at least one filler from the group kaolin, calcium carbonate, soapstone, mica, talc. Mine according to one of the preceding claims,
characterized in that at least one lubricant is included. Mine according to claim 9,
marked by
a lubricant content of 3 to 25% by weight. Mine according to claim 9 or 10,
characterized in that a fatty acid salt is present as a lubricant. Mine according to one of the preceding claims,
characterized,
that at least one waxy and / or fat-like ingredient is included. Mine according to claim 12,
characterized,
that as a fat-like part of stearic acid, montanic acid, fat and Weichwachsglycerid, wax alcohols, wax Sester, Ester a montan acids, castor oil and / or palmitic acid is included.